A series of combined measurements was made at the Naval Air Station North Island (NASNI) Installation
Restoration Site 5, Unit 2 during July and August 2013. Combined measurements included CO₂
respiration rate, CO₂ radiocarbon content to estimate chlorinated hydrocarbon (CH) mineralization and a
zone of influence (ZOI) model. CO₂ was collected continuously over 2 two-week periods by
recirculating monitoring well headspace gas through NaOH traps. A series of 12 wells in the main CH
plume zone and a background well with no known historical contamination were sampled. The
background well CO₂ was used to determine radiocarbon content derived from respired natural organic
matter. A two end-member mixing model was then used to determine the amount of CH-derived
carbon present in the CO₂ collected from plume region wells. The ZOI model provided an estimate for
the soil volume sampled at each well. CH mineralization rates were highest upgradient and at the plume
fringe for areas of high historical contamination and ranged from 0.02 to 5.6 mg CH carbon per day.
Using the ZOI model volume estimates, CH–carbon removal ranged from 0.2 to 32 mg CH–carbon m⁻³
per day. Because the rate estimates were based on a limited sampling (temporally), they were not further
extrapolated to long-term contaminant degradation estimates. However, if the site manager or
regulators required them, estimates – subject to long-term variability uncertainties – could be made
using volume and rate data determined over short timescales. A more comprehensive seasonal sampling
is needed to constrain long-term remediation models for the entire impacted area and identify
environmental conditions related to more rapid turnover times amongst the wells.